[1]  Zhang, M., Zhao, N., Wang, Z., and Wang, Q., 2018, “Efficient Numerical Method With a Dual-grid Scheme for Contact of Inhomogeneous Materials and Its Applications,” to appear in Computational Mechanics.

[2]  Liu, H., Zhu, C., Wang Z., Xu, X., and Tang, J., 2018, “Investigation on the Effect of Coating Properties on Lubrication of a Coated Spur Gear Pair,” to appear in Proceedings of the Institution of Mechanical Engineers-Part J: Journal of Engineering Tribology.

[3]  Zhang, X., Wang, Z., Shen, H., and Wang, Q., 2018, “An Efficient Model for the Frictional Contact between Two Multiferroic Bodies,” International Journal of Solids and Structures, 130-131, pp. 133-152.

[4]  Liu, H., Zhu, C., Gu, Z., Wang Z., and Tang, J., 2017, “Effect of Thermal Properties of a Coated Elastohydrodynamic Lubrication Line Contact Under Various Slide-to-Roll Ratios,”ASME Journal of Heat Transfer, 139(7), p. 074505.

[5]  Zhang, X., Wang, Z., Shen, H., and Wang, Q., 2017, “Frictional Contact Involving a Multiferroic Thin Film Subjected to Surface Magnetoelectroelastic Effects,” International Journal of Mechanical Sciences, 131-132, pp. 633-648.

[6]  Zhang, M., Zhao, N., Glaws, P., Hegedus, P., Zhou, Q., Wang, Z., Jin, X., Keer, L.M., and Wang, Q., 2017, “Elasto-plastic Contact of Materials Containing Double-Layered Inhomogeneities,” International Journal of Solids and Structures, 126-127, pp. 208-224.

[7]  Wang, Z., Yu, H., Wang, Q., 2017, “Layer-substrate System with an Imperfectly Bonded Interface: Coupled Dislocation-Like and Force-Like Conditions,” International Journal of Solids and Structures, 122-123, pp. 91-109.

[8]  Wang, Z., Yu, H., Wang, Q., 2017, “Layer-substrate System with an Imperfectly Bonded Interface: Spring-Like Condition,” International Journal of Mechanical Science, 134, pp. 315-335.

[9]  Liu, H., Zhu, C., Wang, Z., Liu, G., Zhou, Y., and Zhang, Y., 2017, “A Theoretical Tribological Comparison Between Soft and Hard Coatings of Spur Gear Pairs,” ASME Journal of Tribology. 139(3), p. 031503.

[10] Zhou, Q., Wang, J., Wan, Q., Jin, F., Yang, W., Miao, Q., and Wang, Z., 2017, “Numerical Analysis of the Influence of Distributed Inhomogeneities on Tangential Fretting,” Proceedings of the Institution of Mechanical Engineers-Part J: Journal of Engineering Tribology, 231(10) 1350-1370.

[11] Yu, H., Wang, Z., Wang, Q., 2016, “Analytical Solutions for the Elastic Fields Caused by Eigenstrains in Two Frictionlessly Joined Half-spaces,” International Journal of Solids and Structures, 100-101, pp. 74-94.

[12] Liu, H., Zhu, C., Zhang, Y., Wang, Z., and Song, C., 2016, “Tribological Evaluation of a Coated Spur Gear Pair,” Tribology International, 99, pp. 117-126.

[13] Huang, Y., Wang, Z., Zhou, Q., 2016, “Numerical Studies on the Surface Effects Caused By Inhomogeneities on Torsional Fretting,” Tribology International, 96, pp. 202-216.

[14] Zhou, Q., Xie, L., Wang, X., Jin, X., Wang, Z., Wang, J., Jia, Z., Keer, L. M., and Wang, Q., 2016, “Modeling Rolling Contact Fatigue Lives of Composite Materials Based on the Dual Beam FIB/SEM Technique,” International Journal of Fatigue, 83(2), pp. 201-208.

[15] Zhou, Q., Jin, X., Wang, Z., Wang, J., Keer, L. M., and Wang, Q., 2016, “Numerical EIM with 3D FFT for the Contact with a Smooth or Rough Surface Involving Complicated and Distributed Inhomogeneities,” Tribology International, 93, pp. 91-103.

[16] Zhou, Q., Jin, X., Wang, Z., Yang, Y., Wang, J., Keer, L. M., and Wang, Q., 2016, “A Mesh Differential Refinement Scheme for Solving Elastic Fields of Half-space Inclusion Problems,” Tribology International, 93, pp. 124-136.

[17] Yu, C., Wang, Z., Liu, G., Keer, L. M., and Wang, Q., 2016, “Maximum von Mises Stress and Its Location in Trilayer Materials in Contact,” ASME Journal of Tribology, 138(4), p. 041402.

[18] Geng, Y., and Wang, Z., 2016, “Review of Cellular Mechanotransduction on Micropost Substrates,” Medical & Biological Engineering & Computing, 54(2), pp. 249-271.

[19] Wang, Z., Yu, H., and Wang, Q., 2016, “Analytical Solutions for Elastic Fields Caused by Eigenstrains in Two Joined and Perfectly Bonded Half-Spaces and Related Problems,” International Journal of Plasticity, 76, pp. 1-28.

[20] He, T., Wang J., Wang, Z., and Zhu, D., 2015, “Simulation of Plasto-Elastohydrodynamic Lubrication in Line Contacts of Infinite and Finite Length,” ASME Journal of Tribology, 137(4), pp. 041505.

[21] Wang, Z., Yu, C., and Wang, Q., 2015, “An Efficient Method for Solving Three-dimensional Fretting Contact Problems Involving Multilayered or Functionally Graded Materials,” International Journal of Solids and Structures, 66, pp. 46-61.

[22] Wang, Z., and Geng, Y., 2015, “Unidirectional Cell Crawling Model Guided by Extracellular Cues,” ASME Journal of Biomechanical Engineering, 137(3), p. 031006.

[23] Wang, Z., Yu, C., and Wang, Q., 2015, “Model for Elastohydrodynamic Lubrication of Multilayered Materials,” ASME Journal of Tribology, 137(1), p. 011501.

[24] Zhou, Q., Xie, L., Jin, X., Wang, Z., Wang, J., Keer, L. M., and Wang, Q., 2015, “Numerical modeling of Distributed Inhomogeneities and Their Effect on Rolling-Contact Fatigue Life,” ASME Journal of Tribology, 137(1), p. 011402.

[25] Zhou, Q., Jin, X., Wang, Z., Wang, J., Keer, L. M., and Wang, Q., 2015, “Numerical Implementation of the Equivalent Inclusion Method for 2D Arbitrarily Shaped Inhomogeneities,” Journal of Elasticity. 118(1), pp. 39-61.

[26] Xie, L., Palmer, D., Otto, F., Wang, Z., and Wang, Q., 2015, “Effect of Surface Hardening Technique and Case Depth on Rolling Contact Fatigue Behavior of Alloy Steels,” Tribology Transactions, 58(2), pp. 215-224.

[27] Han, Y., Chan, C., Wang, Z., Wang, J., Shi, F., Wang, N., and Wang, Q., 2015, “Effects of Shaft Axial Motion and Misalignment on the Lubrication Performance of Journal Bearings Via a Fast Mixed-EHL Computing Technology,” Tribology Transactions, 58(2), pp. 247-259.

[28] Yu, C., Wang, Z., and Wang, Q., 2014, “Analytical Frequency Response Functions for Contact of Multilayered Materials,” Mechanics of Materials, 76, pp. 102-120.

[29] Zhou, Q., Jin, X., Wang, Z., Wang, J., Keer, L. M., and Wang, Q., 2014, “An Efficient Approximate Numerical Method for Modeling Contact of Materials with Distributed Inhomogeneities,” International Journal of Solids and Structures. 51(19-20), pp. 3410-3421.

[30] Xie, L., Zhou, Q., Jin, X., Wang, Z., Jiang, C., Lu, W., Wang, J., and Wang, Q., 2014, “Effect of Reinforcements on Rolling Contact Fatigue Behaviors of Titanium Matrix Composite (TiB + TiC)/Ti–6Al–4V,” International Journal of Fatigue, 66, pp. 127-137.

[31] Wang, Z., Zhu, D., and Wang, Q., 2014, “Elastohydrodynamic Lubrication of Inhomogeneous Materials Using the Equivalent Inclusion Method,” ASME Journal of Tribology, 136(2), p. 021501.

[32] Jin, X., Wang, Z., Zhou, Q., Keer, L. M., and Wang, Q., 2014, “On the Solution of an Elliptical Inhomogeneity in Plane Elasticity by the Equivalent Inclusion Method,” Journal of Elasticity, 114(1), pp. 1-18.

[33]  Chan, C., Han, Y., Wang, Z., Wang, J., Shi, F., Wang, N., Wang, Q., 2014, “Exploration on a Fast EHL Computing Technology for Analyzing Journal Bearings with Engineered Surface Textures,” Tribology Transactions, 57(2), pp. 206-215.

[34] Wang, L., Wang, W., Wang, Z., Wang, H., Ma, T., Hu, Y., 2014, “Numerical Study of Contacts Between a Flat-ended Punch and a Half-space Embedded With Inhomogeneities,” Science China Physics, Mechanics and Astronomy, 57(4), pp. 684-697.

[35] Wang, Z., Jin, X., Keer, L. M., and Wang, Q., 2013, “Novel Model for Partial-Slip Contact Involving a Material with Inhomogeneity,” ASME Journal of Tribology, 135(4), p. 041401.

[36] Wang, Z., Jin, X., Zhou, Q., Ai. X., Keer, L. M., and Wang, Q., 2013, “An Efficient Numerical Method With a Parallel Computational Strategy for Solving Arbitrarily Shaped Inclusions in Elastoplastic Contact Problems,” ASME Journal of Tribology, 135(3), p. 031401.

[37] Wang, Z., Jin, X., Liu, S., Keer, L. M., Cao, J., and Wang, Q., 2013, “A New Fast Method for Solving Contact Plasticity and Its Application in Analyzing Elasto-plastic Partial Slip,” Mechanics of Materials, 60, pp. 18-35.

[38]  Li, P., Wang, Z., Li, X., Jin, X., Chen, W. W., Li, Y., and Wang, Q., 2013, “Elasto-plastic Indentation of a Half-space By a Rigid Sphere Under Normal and Torque Loading,” Tribology International, 62, 141-148.

[39]  Li, X., Wang, S., Wang, Z., Li, P., Wang, Q., 2013, “Location of the First Yield Point and Wear Mechanism in Torsional Fretting,” Tribology International, 66, pp. 265-273.

[40] Yu, C., Wang, Z., Sun, F., Lu, S., Keer, L. M., and Wang, Q., 2013, “A Deterministic Semi-Analytical Model for the Contact of a Wafer and a Rough Bi-Layer Pad in CMP,” ECS Journal of Solid State Science and Technology, 2(9), pp. 368-374.

[41]  Wang, Z., Jin, X., Keer, L. M., and Wang, Q., 2012, “Numerical Methods for Contact Between Two Joined Quarter Spaces and a Rigid Sphere,” International Journal of Solids and Structures, 49(18), pp. 2515-2527.

[42]  Wang, Z., Jin, X., Keer, L. M., and Wang, Q., 2012, “A Numerical Approach For Analyzing Three-Dimensional Steady-State Rolling Contact Including Creep Using a Fast Semi-Analytical Method,” Tribology Transactions, 55(4), pp. 446-457.

[43]  Wang, Z., and Zhou, Q., 2012, Applying a Population Growth Model to Simulate Wear of Rough Surfaces During Running-in,” Wear, 294-295, pp. 356-363.

[44] Liu, S., Jin, X., Wang, Z., Keer, L. M., and Wang, Q., 2012, “Analytical Solution for Elastic Fields Caused by Eigenstrains in a Half-Space and Numerical Implementation Based on FFT,” International Journal of Plasticity, 35, pp. 135-154.

[45] Zhang, P., Diao, D., and Wang, Z., 2012, “Three-dimensional Local Yield Maps of Hard Coating Under Sliding Contact,” ASME Journal of Tribology, 133(2), p. 021301.

[46]  Wang, Z., Jin, X., Keer, L. M., and Wang, Q., 2012, “Numerical Modeling of Partial Slip contact Involving Inhomogeneous Materials,” Proceedings of the ASME/STLE 2012 International Joint Tribology Conference, IJTC2012-61108.

[47]  Li, P., Wang, Z., Chen, W. W., Jin, X., Li, Y., and Wang Q., 2012, “Elasto-plastic Analysis of a Contact Under Normal and Torque Loading,” Proceedings of the ASME/STLE 2012 International Joint Tribology Conference, IJTC2012-61032.

[48]  Jin, X., Wang, Z., Zhou, Q., Keer, L. M., and Wang, Q.,2012, “Efficient Numerical Modeling of Hertzian Line Contact for Material With Inhomogeneities,” Proceedings of the ASME/STLE 2012 International Joint Tribology Conference, IJTC2012-61168.

[49] Zhou, Q., Jin, X., Wang, Z., Wang, J., Keer, L. M., and Wang, Q.,2012, “Numerical Modeling of Distributed Inhomogeneities and Their Effect on Rolling Contact Fatigue Life,” Proceedings of the ASME/STLE 2012 International Joint Tribology Conference, IJTC2012-61156.

[50] Wang, Z., Wang, W., Meng, F., and Wang, J., 2011, “Fretting Contact Analysis on Three-dimensional Elastic Layered Half Space,” ASME Journal of Tribology, 133(3), p. 031401.

[51] Wang, Z., Meng, F., Xiao, K., Wang J., and Wang W., 2011, “Numerical Analysis of Partial Slip Contact Under a Tangential Force and a Twisting Moment,” Proceedings of the Institution of Mechanical Engineers-Part J: Journal of Engineering Tribology, 225(2), pp. 72-83.

[52] Wang, Z., Jin, X., Liu, S., Keer, L. M., Chao, J., and Wang, Q., 2011, “A Fast Method for Solving Contact Plasticity in a Half Space,” Proceedings of the ASME/STLE 2011 International Joint Tribology Conference, IJTC2011-61147, pp. 293-294.

[53]  Wang, L., Wang, Z., Wang, W., Hu, Y., and Wang H., 2011, “Numerical Analysis on the Clamping Reliability of Fixture workpiece Facility Considering Partial Slip,” Proceedings of the Institution of Mechanical Engineers-Part J: Journal of Engineering Tribology, 225(12), pp. 1186-1198.

[54]  Wang, Z., Wang, W., Wang, H., Zhu, D., and Hu, Y., 2010, “Partial Slip Contact Analysis on Three-Dimensional Elastic Layered Half Space,” ASME Journal of Tribology, 132(2), p. 021403.

[55]  Wang, Z., Wang, W., Hu, Y., and Wang, H., 2010, “A Numerical Elastic-Plastic Contact Model for Rough Surfaces," Tribology Transactions, 53(2), pp. 224-238.

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